A full-in-cell touch screen panel and a mobile device

ABSTRACT

The invention disclosure a full-in-cell touch screen panel and a mobile device including a plurality of the sensor pads arranged in a matrix, a plurality of date line arranged along the row direction of the matrix, a plurality of data driving devices connected to the data lines and a plurality of transistors formed on the data line, wherein one of the transistor of the plurality of the transistors is formed in each of the data line, the drain electrode of each transistor is connected to the corresponding data line, the gate electrodes of all of the plurality of the transistors are all connected to the specific enable terminal of the data driving device. According to the full-in-cell touch screen panel and its display apparatus, the electric charge coupled to the liquid crystal in the touch scanning period can be released.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to the field of full in cell touch screen panel technology, and in particular to a full in cell touch screen panel and a mobile device with the full- in-cell touch screen panel.

2. Discussion of the Related Art

By the rapid development of the liquid crystal display technology, the touch screen panel is gradually extending to people's life, wherein since the in cell touch screen panel have the advantage of making the panel more thin and compact, the in cell touch screen panel have been adopted by the end device company and become the future developing trend.

The touch screen panel is forming a touch circuit embedded in the display panel to achieve the integration of the touch screen panel and the display panel. Nowadays, in the framework of the full-in-cell touch screen panel, the touch sensor is usually formed in one side of the thin-film transistor (TFT), as illustrated in FIG. 1. Here, the in cell touch screen panel is divided into a self-capacitance or a mutual capacitance touch screen panel, wherein the self-capacitance touch screen panel use the theory of self-capacitance to achieve of detecting the finger touching site. More specifically, a plurality of the touch sensors that is insulated to each other is formed in one layer in the touch screen panel. When a person don't touch the panel, the capacity to endure of each of the touch sensors are a fix value, when a person touch the panel, the capacity to endure of the touch sensor corresponding to the touch site is the fix value and the body capacitance, and the touch detection chip can detect the touch site by detecting the difference of the capacitance value of each of the touch sensors in the touch period. Wherein, in order to achieve the function of the display and the touch in the same time, for the in cell touch screen panel, the touch circuit for touch function and the display circuit for the display function need to be drove, and achieve the touch function and the display function separately. In the exiting driving method, the touch scanning circuit and the display circuit is divided by time period, such as when the touch screen panel is drove; the detection of the touch on the touch screen panel is stopped.

Usually, the adoption of the in cell touch screen panel in the mobile device field, a plurality of the new touch function had been released, for example, in the standby mode of the mobile device, the mobile device can be wake up and into a specific application by a specific gesture (for example a double click gesture), in this case, the touch circuit need to be scanned continuously to detect the wake up gesture. Therefore, for the self-capacitance in cell touch screen panel, the touch detection chip need to be detected in the touch period. Since the touch sensor can be a common electrode (Vcom), and will couple to the source electrode of the thin film transistor by the storage capacity, no matter the square wave or the sine wave, it will make the electric charge coupling to the source electrode of the thin film transistor become the same electric charge of the polarity, as illustrated in FIG. 2. If the mobile device was in the standby mode with the black panel in a long time that is the liquid crystal molecule in the same electric charge in a long time, the liquid crystal will be polarized and make the abnormal display of the panel.

Therefore, the in cell touch screen panel now cannot make the terminal liquid crystal panel with the standby mode in a long time not to be polarized.

SUMMARY

By this, the purpose of this invention is to provide a full-in-cell touch screen panel and a mobile device with the full-in-cell touch screen panel. By improving the structure of the full-in-cell touch screen panel to overcome the polarized problem of the liquid crystal display panel in a long standby mode period.

According to the embodiment of this invention, a full-in-cell touch screen panel is provided including a plurality of the sensor pads arranged in a matrix, a plurality of date line arranged along the row direction of the matrix, a plurality of data driving devices connected to the data lines; and a plurality of transistors formed on the data line, wherein one of the transistor of the plurality of the transistors is formed in each of the data line, the drain electrode of each transistor is connected to the corresponding data line, the gate electrodes of all of the plurality of the transistors are all connected to the specific enable terminal of the data driving device.

In a preferred embodiment, the source electrode of each of the transistor is connected to the last ends of the sensor pads in a row of the sensors pads in the adjacent row of the corresponding data line.

In a preferred embodiment, the source electrode of each of the transistor is connected to each of the sensor pads.

In a preferred embodiment, the plurality of the sensor pads and the common electrode are in multiple operation by time divisions, wherein in the normal display period of the liquid crystal panel, the plurality of the sensor pads is operated as a common electrode; in the touch scanning period, the plurality of the sensor pads is operated for the touch scanning

In a preferred embodiment, the full-in-cell touch screen panel further comprising a liquid crystal panel integrated with the full-in-cell touch screen panel, a gate driving device for driving the liquid crystal panel, and a plurality of the gate line to transmit the gate driving signal to the liquid crystal panel, wherein the plurality of the data line is connected to the liquid crystal panel to transmit the data signal of the data driving device to the liquid crystal panel.

In a preferred embodiment, a plurality of frames is includes in a standby mode of the display panel, each frame has a predetermine touch scanning period, the plurality of the sensor pads operate the touch scanning of the predetermine touch scanning period in each frame, wherein in the period from the Mth frame to the Nth frame, the specific enable terminal of the data driving device input a low electrical level signal, the gate driving device not input a gate driving signal, in the N+1th frame period, the clean screen period after the touch scanning period, the specific enable terminal of the data driving device input a high electrical level signal, the gate driving device input a gate driving signal to each of the plurality of the gate line accordingly, and the plurality of the sensor pads is operated as a common electrode, wherein the M and N is a whole number and N is larger than M.

In a preferred embodiment, the electrical level of the common electrode is a ground electrical level in the clean screen period.

According to the embodiment of this invention, a mobile device having a full-in-cell touch screen panel is provided.

According to the embodiment of this invention, a full-in-cell touch screen panel and a mobile device with the full-in-cell touch screen panel is provide by adding a plurality of the transistor in the full-in-cell touch screen panel to achieve a novel full-in-cell touch screen panel, the electric charge coupled to the liquid crystal in the touch scanning period can be released by this can improving, and prevent the polarization of the liquid crystal and occurring the abnormal display of the panel.

BRIEF DESCRIPTION OF THE DRAWINGS

The following detailed descriptions accompanying drawings and the embodiment of the present invention make the aspect of the present invention and the other beneficial effect more obvious.

FIG. 1 is a cross-sectional view illustrating a full-in-cell touch screen panel of the conventional technology;

FIG. 2 is a circuit diagram of a display circuit in the full-in-cell touch screen panel of the conventional technology;

FIG. 3 is a schematic view illustrating a full-in-cell touch screen panel according to the embodiment of the present invention;

FIG. 4 is a timing diagram of the full-in-cell touch screen panel in a normal display mode according to the embodiment of the present invention;

FIG. 5 is a timing diagram of the full-in-cell touch screen panel in a standby mode according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The specific components or items are used in the specification and claims. Those skilled in the art can use other possible modifications and variations in the same components or items. The specification and claim will not distinguish the different terms to the items or components but by the functions. Following is the detail description illustrated by the figures and the embodiments.

FIG. 3 is a schematic view illustrating a full-in-cell touch screen panel according to the embodiment of the present invention.

As illustrated in FIG. 3, the full-in-cell touch screen panel according to the embodiment of the present invention includes a plurality of sensor pads TP_(pq) (p and q are whole number and not smaller than 1) arranged in a matrix, a plurality of date line S_(t) (t is a whole number and not smaller than 1) arranged along the row direction of the matrix, a plurality of data driving devices connected to the data lines S_(t) (not shown in FIG. 3), and a plurality of transistors T_(a) (a is a whole number and not smaller than 1) formed on the data line, wherein the one of the transistor of the plurality of the transistors in each of the data line, the drain electrode of each transistor is connected to the corresponding data line, the source electrode of each transistor is connected to the sensor pads and the gate electrodes of all of the plurality of the transistors are all connected to the specific enable terminal CLEAR-EN of the data driving device. Take an example here, the transistors can be field-effect transistors (for examples, NMOS). It should be noted that, following, the embodiments will be illustrated as taking NMOS as examples.

Here, since all of the sensor pads in the full-in-cell touch screen panel can receive and output signal in the same time, and are connected to the ground level after the touch and scanning, therefore, there are a plurality connecting way to connect the source electrode of each of the transistor to each of the sensor pad. For example, the source electrode of each of the transistor is connected to the last ends of the sensor pads in a row of the sensors pads in the adjacent row of the corresponding data line. For example, refereeing to FIG. 3, the source electrodes of the transistor T₁-T₁₀ is corresponding to the date line S₁-S₁₀ are all connected to the sensor pad TP_(1q) in adjacent sensors pads in the first row. By this way, the internal layout of the full-in-cell touch screen panel can be more standardized, and save the manufacturing cost. Besides, as another example, the source electrode of each of the transistor can be connected to each of the sensor pads.

Besides, since the full-in-cell touch screen panel is to have the touch circuit into the display panel to achieve the integration of the touch circuit and the display panel. Therefore, the display panel in the end product is usually an integrated display panel with the function of touch and display.

Here, as a component parts, the full-in-cell touch screen panel can further include a liquid crystal panel, a gate driving device of the liquid crystal panel, and a plurality of the gate line (not shown in FIG. 1) that transmit the gate driving signal to the liquid crystal panel integrated with the full-in-cell touch screen panel, wherein the plurality of the data line is connected to the liquid crystal panel to transmit the data signal of the data driving device to the liquid crystal panel.

As an embodiment in this invention, in order to achieve the touch texting function and the display function in the full-in-cell touch screen panel, the multiple operations by time division of the sensor pad and the common electrode in the full-in-cell touch screen panel is adopted. For example, in the time period of the normal display of the integrated liquid crystal panel with the full-in-cell touch screen panel, the plurality of the sensor pads is operated as a common electrode; in the touch scanning period, the plurality of the sensor pads is operated for the touch scanning

FIG. 4 is a timing diagram of the full-in-cell touch screen panel in a normal display mode according to the embodiment of the present invention. As illustrated in FIG. 4, a plurality of frames is includes in a normal display period of the display panel, each frame has a predetermine touch scanning period and normal display period, refereeing to FIG. 4, during the normal display period of the liquid crystal display, the plurality of the sensor pads is operated as a common electrode; in the touch scanning period, the plurality of the sensor pads is operated for the touch scanning

Besides operating for the touch scanning in the normal display period of the full-in-cell touch screen panel, when the liquid crystal display is in the standby period of the dark mode, a touch scanning is still needed to detect whether a touch is operated to the full-in-cell touch screen panel by the user.

Following, by the combination of FIG. 5 is to illustrate the full-in-cell touch screen panel in a standby mode according to the embodiment of the present invention. Specifically, as illustrated in FIG. 5, a plurality of frames is includes in a standby mode of the display panel, each frame has a predetermine touch scanning period, the plurality of the sensor pads operate the touch scanning of the predetermine touch scanning period in each frame. (Refereeing to FIG. 5, during the touch scanning period, a pulsed signal is produced by the user touch.) More specifically, in the period from the Mth frame to the Nth frame, the specific enable terminal CLEAR-EN of the data driving device input a low electrical level signal, the gate driving device will not input a gate driving signal. In this time, the data line is in a high resistance. Besides, in each frame of the touch scanning period from the Mth frame to the Nth frame, the plurality of the sensor pads is operated for the touch scanning in each frame of the standby dark mode period from the Mth frame to the Nth frame, the plurality of the sensor pads is operated as a common electrode and the electrical level of the common electrode become a ground electrical level. After that, in the N+1th frame period, after the touch scanning period operation the scanning of touch is the clean screen period, the specific enable terminal CLEAR-EN of the data driving device input a high electrical level signal, the gate driving device input a gate driving signal to each of the plurality of the gate line accordingly, the plurality of the sensor pads is operated as a common electrode. Here, as an embodiment, the electrical level of the common electrode is a ground electrical level.

In other word, in the period of the clean screen, the specific enable terminal of the data driving device output a high electrical level signal, therefore, take NMOS transistor as an example, each of the NMOS transistor is open according to receive the high electrical level signal from the gate electrode, it makes the connection of the plurality of the data lines and the plurality of the sensor pads, and since the plurality of the sensor pads is operated as a common electrode during the clean screen, therefore, the electric charge coupled to the liquid crystal is clean during the touch scanning period, and prevent the polarization of the liquid crystal and decrease the power consumption of the data driving device in the meantime.

Besides, based on one invention disclosure, the embodiments of this invention further includes a mobile device having the full-in-cell touch screen panel described above. For an embodiment, the mobile device can be a cell phone, a tablet, a TV, a display, a notebook, a navigation device or other product or component with a display function.

In summary, in the full-in-cell touch screen panel and the mobile device with the full-in-cell touch screen panel described above, a novel full-in-cell touch screen panel can be achieve by adding a plurality of transistor embedded in the full-in-cell touch screen panel. The electric charge coupled to the liquid crystal in the touch scanning period can be released, and prevent the polarization of the liquid crystal and occurring the abnormal display of the panel.

It will be apparent to those having ordinary skill in the art that various modifications and variations can be made to the devices in accordance with the present disclosure without departing from the scope or spirit of the disclosure. In view of the foregoing, it is intended that the present disclosure covers modifications and variations of this disclosure provided they fall within the scope of the following claims and their equivalents.

Although the drawings and the illustrations above are corresponding to the specific embodiments individually, the element, the practicing method, the designing principle, and the technical theory can be referred, exchanged, incorporated, collocated, coordinated except they are conflicted, incompatible, or hard to be put into practice together.

Although the present application has been explained above, it is not the limitation of the range, the sequence in practice, the material in practice, or the method in practice. Any modification or decoration for present application is not detached from the spirit and the range of such. 

What is claimed is:
 1. A full-in-cell touch screen panel comprising: a plurality of the sensor pads arranged in a matrix; a plurality of date line arranged along the row direction of the matrix; a plurality of data driving devices connected to the data lines; and a plurality of transistors formed on the data line, wherein one of the transistor of the plurality of the transistors is formed in each of the data line, the drain electrode of each transistor is connected to the corresponding data line, the gate electrodes of all of the plurality of the transistors are all connected to the specific enable terminal of the data driving device.
 2. The full-in-cell touch screen panel according to claim 1, wherein the source electrode of each of the transistor is connected to the last ends of the sensor pads in a row of the sensors pads in the adjacent row of the corresponding data line.
 3. The full-in-cell touch screen panel according to claim 1, wherein the source electrode of each of the transistor is connected to each of the sensor pads.
 4. The full-in-cell touch screen panel according to claim 1, wherein the plurality of the sensor pads and the common electrode are in multiple operation by time divisions, wherein in the normal display period of the liquid crystal panel, the plurality of the sensor pads is operated as a common electrode; in the touch scanning period, the plurality of the sensor pads is operated for the touch scanning
 5. The full-in-cell touch screen panel according to claim 1, wherein the full-in-cell touch screen panel further comprising a liquid crystal panel integrated with the full-in-cell touch screen panel, a gate driving device for driving the liquid crystal panel, and a plurality of the gate line to transmit the gate driving signal to the liquid crystal panel, wherein the plurality of the data line is connected to the liquid crystal panel to transmit the data signal of the data driving device to the liquid crystal panel.
 6. The full-in-cell touch screen panel according to claim 5, wherein a plurality of frames is includes in a standby mode of the display panel, each frame has a predetermine touch scanning period, the plurality of the sensor pads operate the touch scanning of the predetermine touch scanning period in each frame, wherein in the period from the Mth frame to the Nth frame, the specific enable terminal of the data driving device input a low electrical level signal, the gate driving device not input a gate driving signal, in the N+1th frame period, the clean screen period after the touch scanning period, the specific enable terminal of the data driving device input a high electrical level signal, the gate driving device input a gate driving signal to each of the plurality of the gate line accordingly, and the plurality of the sensor pads is operated as a common electrode, wherein the M and N is a whole number and N is larger than M.
 7. The full-in-cell touch screen panel according to claim 6, wherein the electrical level of the common electrode is a ground electrical level in the clean screen period.
 8. A mobile device, wherein the mobile device having a full-in-cell touch screen panel, and the full-in-cell touch screen panel comprising: a plurality of the sensor pads arranged in a matrix; a plurality of date line arranged along the row direction of the matrix; a plurality of data driving devices connected to the data lines; and a plurality of transistors formed on the data line, wherein one of the transistor of the plurality of the transistors is formed in each of the data line, the drain electrode of each transistor is connected to the corresponding data line, the gate electrodes of all of the plurality of the transistors are all connected to the specific enable terminal of the data driving device. 